Polyester plastic compositions containing halogenated aryl flame retardants

ABSTRACT

WHEREIN Z IS BROMINE OR CHLORINE, M AND M&#39;&#39; ARE INTEGERS HAVING A VALUE OF 1-5, I AND I&#39;&#39; ARE INTEGERS HAVING A VALUE OF 0-2, R IS HEREIN DEFINED M AND M&#39;&#39; ARE EACH INDEPENDENT AND ARE FROM THE GROUP OXYGEN, NITROGEN OR SLFUR WITH THE PROVISO THAT M AND M&#39;&#39; CANNOT CONCURRENTLY BE OXYGEN IN BOTH CASES AND A IS CHLORINE CYANO NITRO LOWER ALKOXY, LOWER ALKYL, FLUORINE DIALKYLAMINO, PHENYL HAO-PHENYL, BENZYL, OR HALO-BENZYL.   (Z)M-(AI-1,4-PHENYLENE)-M-R-M&#39;&#39;-(AI&#39;&#39;-1,4-PHENYLENE)-(Z)M&#39;&#39;   PLASTIC COMPOSITION CONTAINING POLYESTER AND HALOGENATED AYL COMPOUNDS HAVING THE FORMULA

United States Patent Otfice US. Cl. 260-459 R 29 Claims ABSTRACT OF THE DISCLOSURE Plastic compositions containing polyesters and halogenated aryl compoundshaving the formula wherein Z is bromine or chlorine', m and m are integers having a value of 1-5, i and i are integers having a value of -2, R is herein defined, M and M are each independent and are from the group oxygen, nitrogen or sulfur with the proviso thatM and M. cannot concurrently be oxygen in'both cases, and A is chlorine, cyano, nitro, lower alkoxy, lower alkyl, fluorine, dialkylamino, phenyl, halo-phenyl, ben zyl, or halo-benzyl.

This application is a continuation-in-part of copending application Ser'. No.- 260,240, filed June 6, 1972 and now abandoned. The entire specification of this case, Ser. No.

260,240, is to be considered asincorporated herein by reference.

'The prior art considered in conjunction with the preparation of this application is as follows: US. 2,130,990; US. 2,186,367; US. 2,329,033; US. 3,666,692; U.S. 3,686,320; US.v 3,658,634; German Pat. No. 1,139,636; German Pat. No. 2,054,522; Japanese Pat. No. (72) 14,500 as cited in Volume77, Chemical Abstracts, column 153737k (1972); Chemical Abstracts, Volume 13, column 448 Chernica1 Abstracts, Volume 31, column 7045 and Journal of ,the Chemical Society, pages 2972-2976 (1 963). All of 'th ese publications are to be considered as incorporated herein by reference.

.. The present inventionrelates to plastic compositions containing saturated or unsaturated polyesters (both types herein referred to collectively as polyesters). More specifically, the present invention covers plastic compositions containing polyesters and certain halogenated aryl compounds (hereinafter defined) as flame retardants for said plastic compositions.

Polyester plastics (also commonly called resins) and utility thereof are known in the art as exemplified by Polyesters and Their Applications, Bjorksten Research Laboratories, Inc., Reinhold Publishing Corporation, New York, 1956 and Modern Plastics Encyclopedia 1972- 1973, Vol. 49; No. 10A, October 1972, pages 73, 76, 78,)

publications are in toto int 60 The need for flame retarding polyesters has also been recognized in the art as exemplified by US. 3,347,822 and.

79 and 156-158 {and which corporated herein by referenc US. 3,422,048; and Modern Plastics Encyclopedia, ibid,

pages 217, 224'-229,*235 and 456-458 and which publications are in toto incorporated herein by reference.

prior art materials as flame retardants for polyesters include, without limitation, factors such a'sthermal'migra- T The resultant disadvantages in the utilization of various tionyheat instability, light instability, non-biodegradable,

toxicity, discoloration and the large amounts employed in order to be effective. 1

" Thus, there is. always a demand for a material which 3,824,209 Patented July 16, 1974 will function as a flame retardant in polyesters and concurrently will not, by incorporation therein, adversely effect the chemical and/or physical and/or mechanical properties of the resultant polyester plastic composition.

The prior art problem of providing a flame retarded polyester composition having desired chemical, physical and mechanical properties has now been substantially solved by the present invention and the above-described disadvantages substantially overcome.

Accordingly, one of the main objects of the present invention is to provide polyester plastic compositions which are flame retarded.

Another object of the present invention is to provide a material for polyester plastic compositions which will not substantially adversely effect the chemical and/or physical and/or mechanical properties of said compositions.

A further object of the present invention is to provide a flame retardant which is economic and easy to incorporate into polyester plastics without being degraded or decomposed as a result of blending or processing operations.

It has been found that the foregoing objects can be obtained by the incorporation of a new class of halogenated aryl compounds in polyester to subsequently provide flame retarded compositions which exhibit outstanding chemical, physical and mechanical properties.

The halogenated aryl compounds used in the present invention compositions have the formula:

In Formula I above, Z is bromine or chlorine, m and m are integers each independently having a value of 1-5; i and i are integers each independently having a value of 0-2; M and M' are each independent and are from the group oxygen, nitrogen and sulfur with the proviso that M and M' cannot concurrently be oxygen in both cases and where m and/or m is nitrogen, the formula is A is from the group chlorine, cyano, (-CN), nitro (--NO lower alkoxy (e.g. --'OCH OC2H5), lower alkyl (e.g. CH3, C2H5, C3H4, C4H9), fluorine, amino e.g. -(CH N(C H phenyl (-C H halophenyl, benzyl (CH C H5), and halo-benzyl; and R is from the group (a) alkylene: branched or straight or halo-branched chain group having from one to six carbon atoms (e.g. CH2! 2 4r C3H6 C4H8:

where S=saturated ring TABLE ICom:lnued Compound number Z m m A i 1' R M M 201 Br 2 2 N N HNWPPNWQMFNDJNMNNNNNNNNNNNN mo-Q-oin 8 Same as above zzoz ozzz zzzwzewozomz zo zz zwoz z z zzzo In general, the halogenated aryl compounds are prepared by reacting a halogenated phenol, thiophenol or aryl amine with a halogenated alkane at elevated temperatures in the presence of a basic material such as alkali metal hydroxides, carbonates, bicarbonates, oxides and hydrides. The preferred alkali metals are potassium and sodium. Where one desires to increase, for example, ease of handling the reaction mass, solvents such as ketones (e.g. acetone, methyl ethyl ketone, and methyl iso-butyl ketone), alcohols (e.g. methanol, ethanol, iso-propyl alcohol, butyl alcohol and glycols), aqueous solvents (e.g. water, a mixture of water and alcohol and a mixture of water and ketone), and polar aprotic solvents such as dimethylformamide (DMF), dimethyl sulfoxide (DMSO) and ethers such as tetrahydrofuran (TI-IF), can be employed. The desired end product i.e. the halogenated aryl compound, can be recovered from the reaction mass via various methods such as distillation or crystallization. Where the end product requires recovery via crystallization, various aromatic solvents such as benzene, toluene, xylene, dichlorobenzene and the like can be used.

Specifically, the symmetrical halogenated aryl compounds are prepared, for example, according to the following reactions:

(III) arg ee In the above reaction, X is halogen, preferably chlorine and R is the same as defined herein. Where m and m and i and i are different integers, then equivalent molar portions of the particular halogenated phenol, thiophenol or aryl amine are used with equivalent portions of dissimilar halogenated phenol, thiophenol or aryl amine.

The unsymmetrical halogenated aryl compounds are prepared for example, according to the following reactions:

In the above reaction, X and R are the same as mentioned above.

The above reactions are conducted at temperatures ranging from the freezing point of the initial reaction mass to the boiling point thereof. Preferably the temperatures are from about 40 C. to about 200 C. and more preferably from about 50 C. to about C. It is to be understood that the reaction can be conducted under sub-atmospheric (e.g. i atmospheres), atmospheric or super-atmospheric (e.g. 1.5-10 atmospheres, pressure. Preferably, the reaction is carried out at atmospheric pressure.

The above described processes can be carried out with conventional, readily available chemical processing equip ment. For example, a conventional glass-lined vessel provided with heat transfer means, a reflux condenser and a mechanical stirrer can be advantageously utilized in practicing any of the preferred embodiments of the invention described in the examples set forth herein. The above described processes and resultant products, i.e., the halogenated aryl compounds, are more fully described in the present applicants copending patent application Ser. No. 330,- 838 filed Feb. 8, 1973 and which is incorporated herein by reference.

The amount of halogenated aryl compound employed in thepresent invention compositions is any. quantity which will effectively render the polyester containing composition flame retardant. .In general, the amount used is from about 1% to 25% by weight, based on the total weight of the composition. Preferably, the'amount employed is from about to about by weight. It is to be understood that-any amount can be used as long as it does not substantially adversely effect the chemical and/or physical and/ or mechanical properties of the end polymer composition, The amount utilized, however, is such amount which achieves the objectives described herein.

It is to be understood that the term polyesters as used herein means polycondensate products of the reaction of dibasic acids and/or anhydrides or derivatives therefromwith dihydroxy alcohols. This term includes both saturated and unsaturated polyesters but excludes those linear polyesters used for fibers. Unsaturated polyesters are so designated where part or all of the respective acids, anhydrides and/ or alcohols contain crosslinkable ethylenic bonds.

Examples of dibasic acids and anhydrides include, without limitation, phthalic anhydride, maleic anhydride, fumaric acid, tetrahydrophthalic anhydride, tetrachlorophthalic anhydride, tetrabromophthalic anhydride, 1,4, 5,6,7,7-hexachlorobicyclo (2,2,1) 5 heptene 2,3 dicarboxylic acid i.e. chlorendic acid, isophthalic acid and terephthalic acid.

Examples of dihydroxy alcohols include, without limitation, ethylene glycol, diethylene glycol, propylene glycol, butane glycol, butene diol, hexane diol, hexene diol, butyne diol, cyclohexane diol, cyclohexene diol, neopentyl glycol, hydrogenated bisphenol A, 2,2,4-trimethyl-1,3- pentanediol and 1,4-cyclohexanedimethanol.

This term also includes copolymers of polyesters which are resins derived from reactants used to give polyester resins and reactants used to give other polycondensate linkages. For example, there may be mentioned the reaction of dibasic anhydrides with dihydroxy alcohols and diamines to give polyester and polyamide links along the same molecular backbone. Also, those products formed by addition polymerization of reactants with ethylenic linkages before or after the polyester condensation reaction. For example, the addition reaction of styrene with unsaturation in polyesters after polycondensation or the formation of an additional polymer with carboxylic acid or other condensable end-groups for further polymerization by polyesterification. Thus the polyesters used in the present invention compositions is any polyester herein defined and which one so desires to flame retard. It is to be understood that the polyesters used can be a virgin material, i.e. substantially free of additives such as sta bilizers, plasticizers, dyes, pigments, fillers, and the like, or the polyesters can have additives (such as those mentioned and described herein) already contained therein or added concurrently'with or after the addition of the halogenated aryl compounds.

Another facet of the present invention relates to the use of certain metal compounds with the halogenated aryl compounds to promote a cooperative effect therebetween and thus enhancethe-fiame retardancy of the resultant plastic composition as compared to the flame retardancy of either'one component used separately. These enhancing agents are from the group antimony, arsenic, bismuth, tin and zinc-containing compounds. Without limitation, examples of said enhancing agents include S5 0 SbCl SbBr SbI SbOCl, As O AS205, ZnBO BaB O4H O, 2-ZnO-3B O -35H O and stannous oxide hydrate. The preferred enhancing agent is antimony trioxide.

The amount of enhancing agent employed in the present invention compositions is any amount which when usedwith saidhalogenated aryl compounds will promote a.cooperative effect therebetween. In general, the amount 10 employed is from about 1% to about 15%, preferably from about 2% to about 10%, by weight, based on the total weight of plastic composition. Higher amounts can be used as long as the desired end. result is achieved.

It is also within the scope of the present invention to employ other materials in the present invention compositions where one so desires to achieve a particular end result. Such materials include, without limitation, adhesion promotors; antioxidants; antistatic agents; antimicrobials; colorants; flame retardants such as those listed on pages 456-458, Modern Plastics Encyclopedia, ibid, (in addition to the new class of flame retardants described herein); heat stabilizers; light stabilizers; pigments; plasticizers; preservatives; ultraviolet stabilizers and fillers.

In this latter category, i.e. fillers, there can be mentioned without limitation, materials such as glass; carbon; cellulosic fillers (wood flour, cork and shell flour); calcium carbonate (chalk, limestone, and precipitated calcium carbonate); metal flakes; metallic oxides (aluminum, beryllium oxide and magnesia); metallic powders, aluminum, bronze, lead, stainless steel and zinc); polymers (comminuted polymers and elastomer-plastic blends); silica products (diatomaceous earth, no'vaculite, quartz, sand, tripoli, fumed colloidal silica, silica aerogel, wet process silica); silicates (asbestos, kaolimite, mica, nepheline synenite, talc, wollastonite, aluminum silicate and calcium silicate); and inorganic compounds such as barium ferrite, barium sulfate, molybdenum disulfide and silicon carbide.

The above mentioned materials, including fillers are more fully described in Modern Plastics Encyclopedia, ibid, and which publication is incorporated herein (in toto) by reference.

The amount of the above described materials employed in the present invention compositions can be any quantity which will not substantially adversely effect the desired results derived from the present invention compositions. Thus, the amount used can be zero (0) percent, based on the total weight of the composition, up to that percent at which the composition can still be classified as a plastic. In general, such amount will be from about 0 to about and specifically from about 1% to about 50%.

The halogenated aryl compounds can be incorporated in to the polyesters at any processing stage in order to prepare the present invention compositions. In general, this is undertaken prior to fabrication either by physical blending or during the process of forming polyesters per se. Where one so desires, the halogenated aryl compounds may be micronized into finely divided particles prior to incorporation into the polyesters.

EXAMPLE l oxide enhancing agent where indicated) is incorporated into the plastic 'by adding both to a Brabender mixer (Plastic-Corder," Torque Rheometer, Model PLV-150,

C. W. Brabender Instruments Inc., South Hackensack, N.J.). The mixer is equipped with a pair of roller type blades positioned within a head provided with heat transfer means.

The resultant mixture is heated to about 277 C.; at this temperature, it is in a molten state. The percentages by Weight of each component utilized in the respective formulations are listed in Table II. Each formulation 1s discharged from the mixer and upon cooling solidifies and is ground into chips. The chips are subjected to compression molding in a Wabash press by placing said chips between two platens, the bottom of which contains four equal size depressions three inches by five inches by A2 inch deep. The top platen is then placed over the bottom platen and heat transfer means supplied thereto in order to melt said chips and thus provide solid samples (after cooling) for testing.

An unsaturated polyester plastic material, Koppers 6101-25, a liquid product of Koppers Company, is used as a base resin in order to prepare 26 formulations, designated Nos. 27-52 in Table II. The particular halogenated aryl (and antimony trioxide where indicated) is incorporated into the unsaturated polyester by mixing with 0.1% by weight, based on the total weight of the formulation, cobalt octoate and 2.0% methyl ethyl ketone peroxide to form a liquid mixture. This mixture is poured into said depressions and cured at 100 C. under slight compression by the Wabash press. Formulation No. 27, without additives, is the control.

Portions of the solid samples of each respective formulation (Nos. 1-52) prepared according to the above de scribed procedures are then subjected to two different standard flammability tests, i.e. UL 94 and ASTM D- 2863-70. The UL 94 is, in general, the application of a burner to a test specimen (strip) for a certain period of time and observation of combustion, burning, and extinguishment. This procedure is fully set forth in Underwriters Laboratories bulletin entitled UL 94, Standard for Safety, First Edition, September 1972 and which is incorporated herein by reference. ASTM No. D-2863-70 is a flammability test which correlates the flammability of a plastic specimen to the available oxygen in its immediate environment; this correlation is stated as an Oxygen Index, 0.1., level predicated upon the percent oxygen in the gaseous medium which is required to just provide a steady state of continuous burning of the plastic specimen. This ASTM method is fully described in 1971 Annual Book of ASTM Standards-Part 27, published by the American Society For Testing and Materials, 1916 Race Street, Philadelphia, Pa.; this publication is to be considered as incorporated (in toto) herein by reference.

The results of these flammability tests are shown in Table II.

TABLE II.FLAMMABILITY DATA FOR POLYESTER PLASTIC COMPOSITIONS CONTAINING HALOGENA'IED ARYL COMPOUNDS Halogenated ar Enhancing compound agent Oxygen Formulation SbzOa, index number Number Percent (percent) (percent UL 94 1 0 22. 0 SB 1 20 0 22. 0 SB 3 1 20 10 26. 0 813-2 2 20 0 25. 0 513-2 2 20 10 34. SE() 3 20 0 25. 5 813-2 3 20 38. 0 SE-O 4 0 25. 5 SE-2 4 20 10 37. 5 SE-O 32 20 O 26. 0 SE-2 32 20 10 39. 0 SE-O 37 20 0 24. 0 SB 37 20 10 31. 0 SE-2 65 20 0 24. 5 SB 65 20 10 30. 0 813-2 70 20 0 25. 0 SE-2 79 2O 1O 31. 0 SE-2 122 20 0 25. 5 815-2 122 20 10 30. 5 SB-Z 143 20 0 26. 5 SE-2 143 20 10 39. 5 SE-O 159 20 0 24. 0 SB 159 20 10 31. 5 513-2 151 20 0 23. 0 SB 181 20 10 30. 0 813-2 205 20 10 37. 5 SE-O 0 0 18. 0 SB 1 20 0 20. 5 SB 1 20 10 25. 0 SE-Z 2 20 0 22. 0 SB 2 20 10 33. 5 SE-O 3 20 0 22. 5 SB 3 20 10 30. 0 SE-O 4 20 0 22. 5 SB 4 20 10 35. 5 SE-O 32 20 0 23. 0 SB 32 20 10 36. 5 SE-O 37 20 0 22. 0 SB 37 20 10 29. 0 SE-l 65 20 0 22. 5 SB 65 20 10 28. 0 513-1 79 20 0 22. 0 SB TABLE II-Contlnued Halogenated ar Enhancing compound agent Oxygen Formulation Sbro mdex number Number Percent (percent) (percent) UL 94 79 20 10 29.0 SE-l 122 20 0 22.5 SB 122 20 10 28.0 813-1 143 20 0 24.5 SB 143 20 10 36.5 813-0 159 20 0 22.0 SB 159 20 10 29.0 815-1 151 20 0 21.0 SB 181 20 10 28.0 SE-l 205 20 10 35.5 SE-O Referring to Table II, the halogenated aryl number relates to the structural formulae heretofor set forth in Table I; a difference of 2% in the Oxygen Index values is considered significant; and the UL 94 values are on a graduated scale wherein the highest degree to lowest degree of flame retardancy is respectively 815-0, 813-1, SE-2, SB and Burns.

The results shown in Table II demonstrate the unique effectiveness of these halogenated aryls as flame retardants for polyesters. With reference to the saturated polyester based formulations (Nos. l-26), formulation No. 1 (the control) had a 0.1. of 22.0 and UL 94 value of 5B. The even numbered formulations, employing tne use of the particular halogenated aryl compound all show an increase in fire retardancy as measured by 0.1. While some formulations have a SB rating (UL 94), the individual U.L. rating covers a wide range and consequently, in these cases, the 01. numbers are more indicative of increased flame retardancy. The use of an enhancing agent such as Sb O to promote a'cooperative effect between such agent and the halogenated aryl is fully demonstrated via the results obtained from testing the odd numbered formulations. The highest UL 94 ratings and significantly higher 0.1. values are obtained when using an enhancing agent.

The results obtained using an unsaturated polyester, are basically similar to those obtained using the saturated polyester. Formulation Nos. 28-52 all demonstrated a significant increase in 0.1. values as compared to the control, No. 27.

EXAMPLE II Portions of the solid samples of Formulation Nos. 1-52 prepared according to the above described procedure of Example I are subjected to the following ASTM tests in order to ascertain other properties of the resultant plastic composition:

ASTM Test N0. 1) Tensile Strength (at break) D638-61T (2) Flexural Strength D790-63 (3) Flexural Modulus D790-63 (4) Notched Izod Impact D256-56 and (5) Heat Distortion Temperature (HDT) D648-56 Each of the aforementioned ASTM Tests are standard tests in the art and are utilized collectively in order to ascertain the efficacy of a polymeric system as an overall flame retarded composition for commercial application. (Formulation Nos. 27-52 are not subjected to the Izod Impact test since they are not reinforced and consequently, impact testing is not appropriate since any data obtained would not have significant meanings.) All of these ASTM Tests are to be considered as incorporated herein by reference.

The results of these ASTM tests show that the physical properties of the present invention compositions are basically the same (except OJ. and UL 94 values) as the plastic material without the flame retardant (i.e. Formulation Nos. 1 and 27). Thus, there is no substantial ad- 13 verse effect on ,the physical properties of the plastic material when the novel compounds are incorporated therein.

The procedure of Examplesl and II are repeated except that the enhancing agent used is zinc borate instead of Sb O Substantially the same results are obtained using zinc bor'ate as those obtainedusing Sb O EXAMPLE IV EXAMPLE v Samples of each of Formulation Nos. 1 through 52 Table II, are subjected to temperature (thermal) stability tests via the use of thermal gravimetric analysis (TGA). This test employed the use of a Thermal Balance, model TGS-l, Perkin-Elmer Corporation, Norwa-lk, Conn., and an electrical balance, Cahn 2580 model, Cahn Instrument Company, Paramount, Calif. The results of these tests show that thehalogenated aryl compound containing Formulations had more thanadequate stability for melt processing and subsequent heat aging (i.e. high temperatnr'e applications) and thus demonstrating that the particular halogenated aryl are quite compatible with the plastic materiaL'The halogenated aryl compound stability thus aids in providing suflicient flame retardancy at the plastic decomposition temperature. This test also demonstrates that these compounds do not exhibit migration.

In; view of the foregoing Examples and remarks, it is seen that the plastic compositions, which incorporate these compounds, possess characteristics which have been unobtainable in the prior art. Thus, the use of these compounds in the above described plastic material as flame retardants therefor is quite unique since it is not possible to predict the ettectiveness and functionality of any particular m aterial in anypolymer system until it has actively undergone incorporation therein and the resultant plastic composition tested ac'cording to various ASTM Standards. Furthermore, it is necessary, in order to have commercial utility, that the resultant flameretarded plastic composition possess characteristics such as being nontoxic. Use of these compounds in the plastic material has accomplished all o'f'thesc objectives.

The above examples have been described in the foregoing specification for thespurpose of=illustrationand not limitation. Many other-"modifications andramifications will naturally suggest themselves to those skilled in the art based on this disclosure, These are intended to be comprehended as within. '6 SCQIlQiOf this invention.

What is claimed is:

1. A plastic composition containing polyester having incorporated therein a flame retardant which is ahalo genated aryl compound having the "formula:

wherein Z is selected from thejgroup consisting of bro:

mine or chlorine; in andm'ar'e integers having a value of 1-5; i and i are integers having a value of 0-2; M and -M' are each independent and are selected from the group consisting of oxygen, nitrogen or sulfur with the proviso that M and M cannot concurrently be oxygen in both cases and where M and/or M is nitrogen, the formula is A is selected from the group consisting of chlorine, cyano, nitro, lower alkoxy, lower alkyl, fluorine, dialkylamino, phenyl, halo-phenyh'benzyl, or halo-benzyl; and R is selected from the group consisting of (a) alkylene group having from one to six carbon atoms (b) CH CH(OH)-CH i crrk Q 011,

where X=H, Cl, Br n=4 (f) CH 'C(O)CH GHQ-on where S=saturated ring mine or chlorine; m" andfmt' are integers having a value of 1-5; i and i are integers having a value of 0-2; A-is selected; flOl'l'I'IhG group :consisting 'of chlorine, cyano,

1 nitro, lower alkoxy, lower alkyl, fluorine,- dialkyla'minojwherein Z is selected from the group consisting of bro- 15 phenyl, halo-phenyl, benzyl, or halo-benzyl; and R is selected from the group consisting of (a) alkylene group having from one to six carbon atoms (b) CH CH(OH)CH (CH2) -O(CH where w=1-6 cmgfigw.

where X=H, Cl, Br

(0 CH C(O)-CH; CHICH mocm 6. The composition as set forth in claim 5 wherein i and i are both 0.

7. The composition as set forth in claim 5 wherein i and i are both 1.

8. The composition as set forth in claim 5 wherein i and i are both 2.

9. The composition as set forth in claim 6 wherein R is an alkylene group having from 1 to 6 carbon atoms.

10. A plastic composition containing polyester having incorporated therein a flame retardant which is a halogenated aryl compound having the formula:

wherein Z is selected from the group consisting of bromine or chlorine; m and m' are integers having a value of 1-5; i and i are integers having a value of 0-2; A is selected from the group consisting of chlorine, cyano, nitro, lower alkoxy, lower alkyl, fluorine, dialkylamino, phenyl, halo-phenyl, benzyl, or halo-benzyl; and R is selected from the group consisting of (a) alkylene group having from one to six carbon atoms (b) CH CH(OH)--CH where B=saturated ring (e) Xi.

CH @CH1 where X=L Cl,Br

(o om-om-orn (g) CHa-CH H1CQ 4JH where S=satumted ring 11. The composition as set forth in claim 10 wherein i and i' are both 0.

12. The composition as set forth in claim 10 wherein i and i are both 1.

13. The composition as set forth in claim 10 wherein i and i are both 2.

14. The composition as set forth in claim 11 wherein R is an alkylene group having from 1 to 6 carbon atoms.

15. A plastic composition containing polyester having incorporated therein a flame retardant which is a halogenated aryl compound having the formula:

wherein Z is bromine or chlorine, m and m are integers having a value of 1-5; 1' and i are integers having a value of 0-2; A is chlorine, cyano, nitro, lower alkoxy, lower alkyl, fluorine, dialkylamino, phenyl, halo-phenyl, benzyl, or halobenzyl; and R is selected from the group consisting of (a) alkylene group having from one to six carbon atom (c) CH CH(CH OH)CH (d) (CH -O--(CH where w=16 om om where x 11, or, Br 1L= CHzG(0)-0H, (g) clan-on H,C@CH1 where S=saturated ring Al Al We We I wherein Z is bromine or chlorine, m and m are integers having a value of l-5; i and i are integers having a value of 0-2; A is chlorine, cyano, nitro, lower alkoxy, lower alkyl, fluorine, dialkylamino, phenyl, halo-phenyl, benzyl, or halo-benzyl; and R is selected from the group consisting of (a) alkylene group having from one (b) CH -CH(OH)CH (B) x n to six carbon atoms where X=H, Cl, Br

(f) CHz-C (O)-CH1 I (E) CHn-(CH Hio@-om where S=saturated ring 21. The composition as set forth in claim 20 wherein i and i are both 0.

22. The composition as set forth in claim 20 wherein i and i are both 1.

23. The composition as set forth in claim 20 wherein i and i are both 2.

24. The composition as set forth in claim 21 wherein R is an alkylene group having from 1 to 6 carbon atoms.

25. A plastic composition containing polyester having incorporated therein a flame retardant which is a halogenated aryl compound having the formula:

wherein Z is bromine or chlorine, m and m are integers having a value of 1-5; i and i' are integers having a value of -2; A is chlorine, cyano, nitro, lower alkoxy, lower alkyl, fluorine, dialkylamino, phenyl, halo-phenyl, benzyl, or halo-benzyl; and R is selected from the group consisting of (a) alkylene group having from one to six carbon atoms (b) CH -CH(OH)-CH where X=H, Cl, Br

2 CQ C where S=saturated ring 26. The composition as set forth in claim 25 wherein i and i are both 0.

27. The composition as set forth in claim 25 wherein i and i are both 1.

28. The composition as set forth in claim 25 wherein iand i are both 2.

29. The composition as set forth in claim 26 wherein R is an alkylene group having from 1 to 6 carbon atoms.

References Cited UNITED STATES PATENTS 4/1972 Yanagi et a1. 161403 2/ 1973 Kutner 260--45.95 G

MAURICE I. WELSH, Primary Examiner US. Cl. X.R.

260-25 A], 45.95 G, R, 45.75 R 

